Primitive Cell
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Primitive Cell

In geometry, biology, mineralogy, and solid state physics, a primitive cell is a minimum-volume cell (a unit cell) corresponding to a single lattice point of a structure with discrete translational symmetry. The concept is used particularly in describing crystal structure in two and three dimensions, though it makes sense in all dimensions. A lattice can be characterized by the geometry of its primitive cell.

The primitive cell is a primitive place. A primitive unit is a section of the tiling (usually a parallelogram or a set of neighboring tiles) that generates the whole tiling using only translations, and is as small as possible.

The primitive cell is a fundamental domain with respect to translational symmetry only. In the case of additional symmetries a fundamental domain is smaller.

## Overview

A crystal can be categorized by its lattice and the atoms that lie in a primitive cell (the basis). A cell will fill all the lattice space without leaving gaps by repetition of crystal translation operations.

By definition, a primitive cell must contain exactly one and only one lattice point. For unit cells generally, lattice points that are shared by n cells are counted as of the lattice points contained in each of those cells; so for example a primitive unit cell in three dimensions which has lattice points only at its eight vertices is considered to contain of each of them.[1]

## Two dimensions

The parallelogram is the general primitive cell for the plane.

A 2-dimensional primitive cell is a parallelogram, which in special cases may have orthogonal angles, or equal lengths, or both.

Conventional 2D primitive cells Non-conventional
2D primitive cells
Shape name Parallelogram Rectangle Square Rhombus
Bravais lattice Primitive Monoclinic Primitive Orthorhombic Primitive Tetragonal Centered Orthorhombic

## Three dimensions

A parallelepiped is a general primitive cell for 3-dimensional space.

The primitive translation vectors a->1, a->2, a->3 span a lattice cell of smallest volume for a particular three-dimensional lattice, and are used to define a crystal translation vector

${\displaystyle {\vec {T}}=u_{1}{\vec {a}}_{1}+u_{2}{\vec {a}}_{2}+u_{3}{\vec {a}}_{3},}$

where u1, u2, u3 are integers, translation by which leaves the lattice invariant.[note 1] That is, for a point in the lattice r, the arrangement of points appears the same from r? = r + T-> as from r.[2]

Since the primitive cell is defined by the primitive axes (vectors) a->1, a->2, a->3, the volume Vp of the primitive cell is given by the parallelepiped from the above axes as

${\displaystyle V_{\mathrm {p} }=\left|{\vec {a}}_{1}\cdot ({\vec {a}}_{2}\times {\vec {a}}_{3})\right|.}$

For any 3-dimensional lattice, you can find primitive cells which are parallelepipeds, which in special cases may have orthogonal angles, or equal lengths, or both. While not mathematically required, by convention, one usually defines the parallelepiped primitive cell so that there is a lattice point on each corner. When the lattice points are on the corner, each lattice point is shared by eight different primitive cells, so each lattice point will contribute only 1/8 of a lattice point to each of those cells. However, there are eight corners, so there is still a total of one lattice point per cell, as required by definition. Some of the fourteen three-dimensional Bravais lattices are represented using such parallelepiped primitive cells, as shown below.

 Shape name Bravais lattice Parallelepiped Oblique rectangular prism Rectangular cuboid Square cuboid Cube Primitive Triclinic Primitive Monoclinic Primitive Orthorhombic Primitive Tetragonal Primitive Cubic

The other Bravais lattices also have a primitive unit cell in the shape of a parallelepiped, but in order to allow easy discrimination on the basis of symmetry, they are conventionally represented by a non-primitive unit cell which contains more than one lattice point.

 Shape name Bravais lattice Oblique rhombic prism Right rhombic prism Trigonal trapezohedron Base-centered Monoclinic Base-centered Orthorhombic Rhombohedral

## Wigner-Seitz cell

An alternative to the unit cell, for every Bravais lattice there is another kind of primitive cell called the Wigner-Seitz cell. In the Wigner-Seitz cell, the lattice point is at the center of the cell, and for most Bravais lattices, the shape is not a parallelogram or parallelepiped. This is a type of Voronoi cell. The Wigner-Seitz cell of the reciprocal lattice in momentum space is called the Brillouin zone.

${\displaystyle {\vec {T}}=\sum _{i=1}^{n}u_{i}{\vec {a}}_{i},\quad {\mbox{where }}u_{i}\in \mathbb {Z} \quad \forall i.}$